| (Displaying 10 records per page of 88 nanoparticles) |
Abstract: Reduction reaction of copper or silver cations is performed in the reverse micelle cores to produce stable metallic copper...
Structure: Crystalline
Origin: Chemical Synthesis
Primary Element: Copper
Contributor:
Christopher
L.
Kitchens
Auburn University / Georgia Tech
Added to NIL: 3/3/2005
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Abstract: Nanoparticles of various compositions (metals, oxides, non-oxides), sizes (1-100 nm), and shapes (spheres, rods, polygons)...
Structure: Agglomerated Spheres
Origin: Chemical Synthesis
Primary Element: Gold
Contributor:
Michael
Wong
Wong Research Group, Rice University
Added to NIL: 3/3/2005
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Abstract: Current synthetic techniques to high-quality quantum dots (“QD’s”) involveorganometallic precursors that are hazardous...
Structure: Quantum Dots
Origin: Chemical Synthesis
Primary Element: Cadmium
Contributor:
Michael
Wong
Wong Research Group, Rice University
Added to NIL: 8/1/2006
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Abstract: Our method uses an electrochemical cleaning technique that disrupts and removes the native layer of titanium dioxide that...
Structure: Spherical
Origin: Other
Primary Element: Titanium
Contributor:
Colin
R
Pulham
University of Edinburgh
Added to NIL: 3/3/2005
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Abstract: Researchers at the Georgia Institute of Technology recently succeeded in creating specific shapes and sizes of colloidal...
Structure: Colloids
Origin: Chemical Synthesis
Primary Element: Platinum
Contributor:
Mostafa
A.
El-Sayed
Georgia Institute of Technology
Added to NIL: 7/19/2005
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Abstract: Single walled carbon nanotubes represent a diverse range of electronic materials, including metals, semi-metal and semi-conducting...
Primary Element: Carbon
Contributor:
Michael
Strano
University of Illinois at Urbana-Champaign
Added to NIL: 7/20/2005
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Abstract: Single walled carbon nanotubes and their more economical counterparts, carbon nanofibers, are promising components of...
Primary Element: Carbon
Contributor:
Michael
Strano
University of Illinois at Urbana-Champaign
Added to NIL: 8/17/2007
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Abstract: For decades, it was widely accepted that nanoscale equilibrium-thickness amorphous films could exist only at grain boundaries...
Structure: Films
Origin: Chemical Synthesis
Primary Element: Bismuth
Contributor:
Jian
Luo
Clemson University
Added to NIL: 7/20/2005
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Abstract: Until now, micrometer-scale or larger crystals of the II-V semiconductors have not been grown at low temperatures for...
Structure: Nano Wires
Origin: Chemical Synthesis
Primary Element: Gallium
Contributor:
William
E.
Buhro
Washington University
Added to NIL: 7/20/2005
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